CSSSegmentedFontFace.cpp [plain text]
#include "config.h"
#include "CSSSegmentedFontFace.h"
#include "CSSFontFace.h"
#include "CSSFontSelector.h"
#include "FontDescription.h"
#include "SegmentedFontData.h"
#include "SimpleFontData.h"
namespace WebCore {
CSSSegmentedFontFace::CSSSegmentedFontFace(CSSFontSelector* fontSelector)
: m_fontSelector(fontSelector)
{
}
CSSSegmentedFontFace::~CSSSegmentedFontFace()
{
pruneTable();
unsigned size = m_fontFaces.size();
for (unsigned i = 0; i < size; i++)
m_fontFaces[i]->removedFromSegmentedFontFace(this);
}
void CSSSegmentedFontFace::pruneTable()
{
if (m_fontDataTable.isEmpty())
return;
HashMap<unsigned, SegmentedFontData*>::iterator end = m_fontDataTable.end();
for (HashMap<unsigned, SegmentedFontData*>::iterator it = m_fontDataTable.begin(); it != end; ++it)
GlyphPageTreeNode::pruneTreeCustomFontData(it->second);
deleteAllValues(m_fontDataTable);
m_fontDataTable.clear();
}
bool CSSSegmentedFontFace::isLoaded() const
{
unsigned size = m_fontFaces.size();
for (unsigned i = 0; i < size; i++) {
if (!m_fontFaces[i]->isLoaded())
return false;
}
return true;
}
bool CSSSegmentedFontFace::isValid() const
{
unsigned size = m_fontFaces.size();
for (unsigned i = 0; i < size; i++) {
if (!m_fontFaces[i]->isValid())
return false;
}
return true;
}
void CSSSegmentedFontFace::fontLoaded(CSSFontFace*)
{
pruneTable();
}
void CSSSegmentedFontFace::appendFontFace(PassRefPtr<CSSFontFace> fontFace)
{
pruneTable();
fontFace->addedToSegmentedFontFace(this);
m_fontFaces.append(fontFace);
}
FontData* CSSSegmentedFontFace::getFontData(const FontDescription& fontDescription)
{
if (!isValid())
return 0;
FontTraitsMask desiredTraitsMask = fontDescription.traitsMask();
unsigned hashKey = fontDescription.computedPixelSize() << FontTraitsMaskWidth | desiredTraitsMask;
SegmentedFontData* fontData = m_fontDataTable.get(hashKey);
if (fontData)
return fontData;
fontData = new SegmentedFontData();
unsigned size = m_fontFaces.size();
for (unsigned i = 0; i < size; i++) {
FontTraitsMask traitsMask = m_fontFaces[i]->traitsMask();
bool syntheticBold = !(traitsMask & (FontWeight600Mask | FontWeight700Mask | FontWeight800Mask | FontWeight900Mask)) && (desiredTraitsMask & (FontWeight600Mask | FontWeight700Mask | FontWeight800Mask | FontWeight900Mask));
bool syntheticItalic = !(traitsMask & FontStyleItalicMask) && (desiredTraitsMask & FontStyleItalicMask);
if (const FontData* faceFontData = m_fontFaces[i]->getFontData(fontDescription, syntheticBold, syntheticItalic)) {
ASSERT(!faceFontData->isSegmented());
const Vector<CSSFontFace::UnicodeRange>& ranges = m_fontFaces[i]->ranges();
unsigned numRanges = ranges.size();
if (!numRanges)
fontData->appendRange(FontDataRange(0, 0x7FFFFFFF, static_cast<const SimpleFontData*>(faceFontData)));
else {
for (unsigned j = 0; j < numRanges; ++j)
fontData->appendRange(FontDataRange(ranges[j].from(), ranges[j].to(), static_cast<const SimpleFontData*>(faceFontData)));
}
}
}
if (fontData->numRanges())
m_fontDataTable.set(hashKey, fontData);
else {
delete fontData;
fontData = 0;
}
return fontData;
}
}